Benchmarking freely available HLA typing algorithms across varying genes, coverages and typing resolutions

Thuesen, Nikolas Hallberg; Klausen, Michael Schantz; Gopalakrishnan, Shyam; Trolle, Thomas; Renaud, Gabriel

doi:10.3389/fimmu.2022.987655

Cited by 14 publications

(15 citation statements)

References 59 publications

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“…To provide additional confidence in the robustness of our association results using imputed HLA genotypes, we assessed the concordance of HLA genotypes called from whole-exome sequencing data with imputed genotypes, both assessed in the same individuals from the UK Biobank. We used two independent, well-validated tools for genotyping of HLA -I and HLA -II—HLA*LA ( 59 ) and HLA-HD ( 60 )—both of which have strong performance relative to other methods ( 61 ). Using these methods, we genotyped HLA -I and HLA -II from 43,000 individuals from the UK Biobank on the basis of whole-exome sequencing data available from blood.…”

Section: Immunogenetic and Demographic Characterization Of Individual...mentioning

confidence: 99%

An immunogenetic basis for lung cancer risk

Krishna,

Tervi,

Saffern

et al. 2024

Science

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Cancer risk is influenced by inherited mutations, DNA replication errors, and environmental factors. However, the influence of genetic variation in immunosurveillance on cancer risk is not well understood. Leveraging population-level data from the UK Biobank and FinnGen, we show that heterozygosity at the human leukocyte antigen (HLA) -II loci is associated with reduced lung cancer risk in smokers. Fine-mapping implicated amino acid heterozygosity in the HLA -II peptide binding groove in reduced lung cancer risk, and single-cell analyses showed that smoking drives enrichment of proinflammatory lung macrophages and HLA -II+ epithelial cells. In lung cancer, widespread loss of HLA -II heterozygosity (LOH) favored loss of alleles with larger neopeptide repertoires. Thus, our findings nominate genetic variation in immunosurveillance as a critical risk factor for lung cancer.

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Section: Immunogenetic and Demographic Characterization Of Individual...mentioning

confidence: 99%

An immunogenetic basis for lung cancer risk

Krishna,

Tervi,

Saffern

et al. 2024

Science

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“…We in parBcular focused on the results from T1K (Song et al 2023). We did not evaluate other genotypers because most of them only work for classical HLA genes, could not genotype KIR genes, and have been evaluated in other benchmark studies (Klasberg et al 2019;Liu et al 2021;Thuesen et al 2022;Yu et al 2023). We carefully evaluated T1K for each of HLA and KIR genes (Figure 6), and also summarized in different categories (Supplemental Table S5).…”

Section: Evalua0ng T1k Genotyping With Short Readsmentioning

confidence: 99%

Full resolution HLA and KIR genes annotation for human genome assemblies

Zhou,

Song,

2024

Preprint

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The HLA (Human Leukocyte Antigen) genes and the KIR (Killer cell Immunoglobulin-like Receptor) genes are critical to immune responses and are associated with many immune-related diseases. Located in highly polymorphic regions, they are hard to be studied with traditional short-read alignment-based methods. Although modern long-read assemblers can often assemble these genes, using existing tools to annotate HLA and KIR genes in these assemblies remains a non-trivial task. Here, we describe Immuannot, a new computation tool to annotate the gene structures of HLA and KIR genes and to type the allele of each gene. Applying Immuannot to 56 regional and 212 whole-genome assemblies from previous studies, we annotated 9,931 HLA and KIR genes and found that almost half of these genes, 4,068, had novel sequences compared to the current Immuno Polymorphism Database (IPD). These novel gene sequences were represented by 2,664 distinct alleles, some of which contained non-synonymous variations resulting in 92 novel protein sequences. We demonstrated the complex haplotype structures at the two loci and reported the linkage between HLA/KIR haplotypes and gene alleles. We anticipate that Immuannot will speed up the discovery of new HLA/KIR alleles and enable the association of HLA/KIR haplotype structures with clinical outcomes in the future.

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“…In the contemporary landscape, multiple NGS data types are amenable to HLA typing analysis via a range of software tools, including HLAminer [34] , HLAforest [35] , ATHLATES [36] , seq2HLA [37] , OptiType [38] , HLAssign [39] , HLAreporter [40] , Polysolver [41] , HLA-VBseq [42] , HLA*PRG [43] , xHLA [44] , HLA-HD [45] , HLAscan [46] , PHLAT [47] , Kourami [48] , STC-Seq [49] , OncoHLA [50] , HLA*LA [51] , HISAT-genotype [52] , arcasHLA [53] , SpecHLA [54] , T1K [55] , DRAGEN [56] , and QzType (TBG Biotechnology Corp., Taipei, Taiwan) ( http://www.tbgbio.com/en/product/product_analysis_software ) (supplementary-1). Several studies have addressed systematic comparisons [33] , [50] , [57] , [58] , [59] , however a definitive assessment, particularly considering both probe capture-based and whole-genome sequencing (WGS) approaches, remain elusive. This study explored and compared multiple HLA genotyping tools using whole-genome and capture-based sequencing data, an aspect that has not been thoroughly addressed in the literature.…”

Section: Introductionmentioning

confidence: 99%

A novel framework for human leukocyte antigen (HLA) genotyping using probe capture-based targeted next-generation sequencing and computational analysis

Lai,

Luo,

Chiu

et al. 2024

Computational and Structural Biotechnology Journal

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Benchmarking freely available HLA typing algorithms across varying genes, coverages and typing resolutions

Cited by 14 publications

References 59 publications

An immunogenetic basis for lung cancer risk

An immunogenetic basis for lung cancer risk

Full resolution HLA and KIR genes annotation for human genome assemblies

A novel framework for human leukocyte antigen (HLA) genotyping using probe capture-based targeted next-generation sequencing and computational analysis

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